KR101106567B1 - Drawing system be able to edit the drawing image - Google Patents

Abstract

PURPOSE: A drawing system capable of partial correcting a drawing image is provided to improve the v of a drawing image and to correct an error by applying coordinate information to the completed drawing image. CONSTITUTION: A drawing system capable of partial correcting a drawing image comprises a drawing device, a reference point display lamp(30) and a correct point display lamp(100). The drawing device comprises a photographing image DB(11), an image editing module(13), an image fuse module(14), a coordinate composite module(15) and an input output module(16). The fuse image database stores the fuse image. The correct point display lamp comprises a pair of bases, a supporter, and a lamp. A pair of bases comprises a closure, a pair of covers, a loop, a repelling and a magnetic grate. The supporter comprises a pair of legs, a magnetic material and a plurality of guide rails. The lamp comprises a main body, a luminous body, a case, a curved figure, a pair of electrode materials and a conductive bulb.

Description

Drawing system for editing image drawing that allows partial modification of drawing image {Drawing system be able to edit the drawing image}

The present invention relates to an editing image drawing processing system capable of partial correction of a drawing image.

In general, an image drawing image that is a background of a digital map is produced based on aerial photographing images. That is, a plurality of photographed image layers (hereinafter, referred to as 'photographed images') are connected at the same scale, and a digital map is completed by drawing and editing an imaged drawing image based on the completed photographed images.

This drawing method is applied regardless of whether the object is an urban area or a non-city area, and in the case of a dense urban area, the difference is that the resolution of the photographed image of the urban area is relatively high.

By the way, there is an area including resins such as rivers, lakes or reservoirs as well as land. Of course, the operator connects the photographed image including the resin with other neighboring photographed images to complete an entire photographed image, and proceeds the drawing operation based on the photographed image, thereby completing the image drawing image corresponding to the photographed image. However, since the resins do not have a water object to be a standard unlike land, the resins are arbitrarily connected without special criteria in the process of connecting neighboring photographed images to each other. Of course, in the case of small scales, water objects such as bridges or islands are photographed in the target shooting image, and can be linked based on them. There is no such random connection as described above is inevitable.

This connection lowers the reliability of the coordinates corresponding to the resin, and in the process of arbitrarily connecting the photographed images, objects that may exist on the resin may be discarded and deleted, so that the accuracy of photographed images including rivers, lakes or reservoirs may be eliminated. There was a problem that is inhibited.

The problem described above has been raised continuously in the art, but its importance has been overlooked and ignored, and no solution has been discussed since no proper attempt was made to solve the problem.

Accordingly, the present invention has been invented to solve the above problems, it is possible to modify part of the drawing image to accurately create the image drawing image for the area containing the resin such as rivers, lakes or reservoirs The technical problem is to provide a video image processing system for editing.

According to an aspect of the present invention,

Shooting including the reference points (SP1, SP2) and the adjustment point (RP) formed by the ground shooting of the aerial camera 20, respectively formed by the laser light irradiated by the reference point indicator 30 and the adjustment point indicator 100 Combining and editing a photographed image DB 11 for storing an image and a plurality of the photographed images, but the same control point in the resin R when the boundary of the photographed image for a neighboring area is a resin R A drawing image including reference points (SP1, SP2) by proceeding with drawing based on the captured image edited by the image editing module 13 and the image editing module 13 for synthesizing and connecting the corresponding captured image based on the RP). An image drawing module 14 for completing the drawing, a drawing image DB 12 for storing the drawing image, and a coordinate combining module 15 for synthesizing GPS coordinate information on the drawing image based on the reference points SP1 and SP2. And outputting the photographed image and the drawing image A drawing device 10 including an input / output module 16 for inputting an operation signal for editing a photographed image and synthesizing GPS coordinate information of the drawing image;

Reference point indicator 30 is installed on the ground to irradiate the laser light toward the aerial camera 20 mounted on the aircraft in operation, 30

A box 111 is formed in a box shape having an upper surface opening and an opening groove 111 a for opening the inside and the outside thereof, and an inner bottom is formed so that the center rises so that the enclosure 111 is installed at the bottom of the resin R. A pair of covers 112 and 112 ′ installed side by side in the opening and closing manner at 111 and having a magnet 112 a and fixed to the covers 112 and 112 ′ through a rubber band 113 a. A ring 113 moving up and down in the enclosure 111 along the openings of the covers 112 and 112 'and being caught by the legs 122 and one surface of the enclosure 111 facing the covers 112 and 112'. A pair of bases (110) having a carburetor (114) installed on the cover to support the cover (112, 112 ') to pivot and a magnetized body (115) installed on the inner bottom of the enclosure (111); The mounting groove 121a is formed on the upper surface, and the plate 121 is formed of a material having a density for immersion in the water, and the magnet 112a is formed of a magnetizable material and is coupled to the bottom of the plate 121 so as to be movable up and down. The bottom surface is concave to correspond to the raised floor of the inside of the 111, the pair of legs 122 inserted into the housing 111 and the magnetic body attached to the leg 122 to correspond to the magnetized body 115 123, a plurality of guide rails 124 installed along the edge of the seating groove 121a, and a vibrator 125 that transmits vibration to the base 110, and the vibrator 125 includes legs 122. And a leg 122 which is connected to the wires drawn from the vibrator 125a and the power source 125b and the wires drawn from the vibrator 125a and the power source 125b and moved under pressure. The plates 121 are installed at the points where the plates 121 abut each other, so that the legs 122 A supporter 120 made of terminals a, b, c, and d that allow the vibrator 125a and the power supply 125b to energize each other when the plate 121 is in contact with each other; The main body 131 is made of a material having a density for submerging underwater while being waterproof and mounted in a battery, and immersed along the guide rail 124 to be seated in the seating groove 121a, and the stem 133 installed in the main body 131. And a light emitter 132 which is irradiated with a laser beam toward the aerial camera 20 mounted on the aircraft in operation, and which controls the energization between the battery and the light emitter 132 installed at the upper end of the shaft 133. Wherein, the switch 134 is a case (134a) having a hollow (S), and a curved surface 134b formed at the bottom of the case 134a and forming a curved surface formed with a hole 134c at the lowest point, the battery and the light emitter A pair of electrode bodies 134d connected to the wires drawn from the 132 and spaced apart from the holes 134c, and a pair of electrode bodies movably seated in the curved bodies 134b and drawn into the holes 134c. A lamp 130 made of a spherical conductor sphere 134e for energizing 134d; Control point indicator (100) comprising a streamlined cross-sectional shape and the wire tube 140 is rotatably fixed along the longitudinal direction of the shaft (133);

It is an editing image drawing processing system capable of partial correction of a drawing image.

The present invention can improve the accuracy in the process of editing and producing the photographed image and the drawing image through a plurality of reference points and adjustment points, thereby increasing the reliability of the digital map produced based on the image. It has an effect.

1 is a block diagram illustrating a processing system according to the present invention,
2 is a view schematically showing how the processing system according to the present invention connects the captured image layers,
3 is an image showing a captured image connected through the processing system according to the present invention,
Figure 4 is an exploded perspective view showing the state of the control point indicator in accordance with the present invention,
5 is a side view showing an operation of the base according to the present invention;
6 is a side view showing another operation of the base according to the present invention;
7 is a front sectional view showing a state of a base according to the present invention;
8 is a perspective view showing the state of the lamp and the streamline according to the present invention,
9 is a view schematically showing an operation of a switch configured in the lamp,
10 is a view schematically showing the installation and operation of the vibrator according to the present invention.

The above-described features and effects of the present invention will become more apparent from the following detailed description taken in conjunction with the accompanying drawings, and thus, those skilled in the art to which the present invention pertains may easily implement the technical idea of the present invention. Could be. As the inventive concept allows for various changes and numerous embodiments, particular embodiments will be illustrated in the drawings and described in detail in the text. However, this is not intended to limit the present invention to the specific disclosure, it should be understood to include all modifications, equivalents, and substitutes included in the spirit and scope of the present invention. The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram showing a processing system according to the present invention, FIG. 2 is a view schematically showing how the processing system according to the present invention connects a photographed image layer, and FIG. 3 is a processing system according to the present invention. It is an image showing the captured image connected through the bar, it will be described with reference.

The processing system according to the present invention includes a photographing image DB (11) for storing the original or edited copy of the photographed image collected by the aerial camera 20, and a drawing image DB for storing the drawn image based on the photographed image. 12, an image editing module 13 for modifying and editing the photographed images, and an image drawing module 14 for completing a drawing image by performing a drawing operation based on the photographed image, and the drawing image. Coordinate composition module 15 for synthesizing GPS (Global Positioning System) information to be precisely connected to each other, and the image and the image so that the operator can perform the drawing operation based on the photographed image And a drawing device (10) configured as an input / output module (16) for outputting a control signal and a manipulation signal for manipulating the same.

In addition, the processing system further includes a reference point indicator 30 and an adjustment point indicator 100 that emit light such that the aerial camera 20 emits light so that the reference is displayed on the photographed image when the ground is photographed. ) Is installed on the resin (R), so that a reference for identifying the position in a river, lake, or reservoir can be indicated in the photographed image.

The photographed image DB 11 and the drawing image DB 12 are conventional databases for storing and managing image files in a data format, and are conventional apparatuses for storing, deleting, and updating the image files.

The image editing module 13 synthesizes and connects the photographed image retrieved from the photographed image DB 11 and output through the input / output module 16, and adjusts and changes the detailed image based on this. That is, the image editing module 13 is an application device for editing a photographed image which is a normal digital image, and the operator executes and operates the image editing module 13 through the operation of the input / output module 16, and through this, the corresponding photographing. The image can be finally edited to the desired shape.

The image drawing module 14 is a device for completing a drawing image based on the captured image output from the input / output module 16. The drawing image may be drawn in the form of an online image or in the form of an offline image. Here, the online image refers to an image in the form of a file, and when the corresponding drawing image is completed, the online image may be stored in the drawing image DB 12 as a file. On the other hand, the offline image is completed by writing the image directly on the ground, and when the corresponding drawing image is completed can not be stored in the file form in the drawing image DB 12, but will be stored separately as the ground. The drawing image completed in the image drawing module 14 according to the present invention is an online image, and the drawing image completed based on the photographed image may be completed in a file form and stored and managed in the drawing image DB 12.

The coordinate synthesis module 15 can correct the error of the drawing image by applying the coordinate information to the completed drawing image, thereby increasing the accuracy of the drawing image which is the background of the digital map. In general, a method of applying coordinate information to a drawing image is performed by synthesizing GPS coordinate information based on reference points SP1 and SP2 displayed on the drawing image. Therefore, when the coordinate information is synthesized differently from the actual coordinate information as a result of synthesizing the coordinate information, the drawing image is regarded as incorrectly completed and corrected.

The reference point indicator 30 is installed at a specific point on the ground so that when the aerial camera 20 mounted on the aircraft in operation to shoot the ground to irradiate the light toward the aerial camera 20 so that the light is taken, The reference point indicator 30 is aimed at the aerial camera 20 to irradiate the light so that the camera 20 accurately captures the light, but the aircraft equipped with the aerial camera 20 is preferably the reference point indicator 30. It would be desirable to allow the investigation to occur as it passes directly above. For reference, the light irradiated from the reference point indicator 30 is preferably a laser light that can secure the straightness, in view of the distance and safety of the aircraft, the high power and its intensity should be limited.

The adjustment point indicator 100 is installed at a specific point together with the reference point indicator 30, and the adjustment point indicator 100 is installed in the resin (水池; R). The control point indicator 100 can check whether the connection is correct when the connection between neighboring photographed images based on the resin R and the abnormality of the edge of the photographed image, and coordinate information after the drawing image is completed. In case of applying, it is used as a standard to check whether the drawing image is correctly drawn.

In more detail, the photographing images P1 and P2 neighboring each other on the basis of the resin R secure the reference points SP1 and SP2 by photographing the light irradiated from the reference point indicator 30. The operator operates the input / output module 16 to execute the image editing module 13, and the image editing module 13 retrieves the captured images P1 and P2 from the captured image DB 11 for editing the captured image. Output Subsequently, the operator adjusts the ratio, scale, resolution, etc. of the photographed images P1 and P2 output through the input / output module 16 to match. Here, the light irradiated from the adjustment point indicator 100 is photographed together with the photographed images P1 and P2, and neighboring photographed images P1 and P2 may be connected to each other using the adjustment point RP. After all, because there are no particular water objects, rivers, lakes, and reservoirs, which have no geographic meaning and trust in the digital map, are connected by the adjustment point (RP), which increases the reliability of the location on the digital map. In addition, the location of small water objects in rivers, lakes, and reservoirs on digital maps has the effect of having meaning and reliability.

On the other hand, when there is a structure to be the reference of the connection in the adjacent area when the neighboring photographed image (P1, P2) connected to the resin (R) boundary, the connection criterion of the photographed image (P1, P2) is It may take precedence over the adjustment point RP. That is, even if there is an adjustment point RP when connecting the photographed images P1 and P2, if there is the structure, the structure is preferentially connected. However, the photographed images P1 and P2 photographed by the aerial camera 20 are photographed to have a longer length than the real time as they go to the edge due to optical natural phenomena. Therefore, the control point image IP1 captured on the left photographed image is positioned to the right of the actual control point RP, and the control point image IP2 photographed to the right photographed image is located to the left of the actual adjustment point RP. Can be. In this case, by moving the surrounding image including the control point images IP1 and IP2 of each of the captured images P1 and P2, the adjustment point RP is expressed to the center of the point where the control point images IP1 and IP2 are located. . As a result, the location information of the resin (R) region in the edited photographed image is linked to a plurality of photographed images (P1, P2) and includes reliable information. Maps can provide reliable information.

Figure 4 is an exploded perspective view showing the state of the control point indicator according to the present invention, will be described with reference to this.

Adjusting point indicator 100 according to the present invention for the above-described effect is installed in the resin (R), because the resin (R) is a river, a lake or a reservoir, there is no choice but to be underwater. In particular, in the case of a resin (R) having a constant force, such as steel, the adjustment point indicator 100 receives a continuous force, it is difficult to aim the light, and the continuous contact with water may cause oxidation on the surface, even light emission Failure to do so may cause the lamp to fail to function properly.

In order to solve such a problem, the control point indicator 100 according to the present invention can be installed only on the spot during aerial photography, but to accurately install and dismantle the adjustment point indicator 100 at the installation point, In addition, when installed, the force of the water does not affect the light aiming.

The adjustment point indicator 100 for this is the base 110 is installed at the designated position of the resin (R), the supporter 120 detachable from the base 110, and the lamp 130 is inserted into the supporter 120 And the wire 130 is configured to minimize the force received by the lamp 130.

Base 110 is a pair is installed on the bottom of the water. Since the coordinate information of the position where the adjustment point indicator 100 is installed is determined, the installation position of the base 110 is correctly installed in the coordinate information.

Figure 5 is a side view showing the operation of the base according to the present invention, Figure 6 is a side view showing another operation of the base according to the present invention, Figure 7 is a front sectional view showing a state of the base according to the present invention. It will be described with reference to this.

The base 110 includes a housing 111 forming a box shape having an upper surface, a pair of lids 112 and 112 'for opening and closing the opened upper surface in a swinging manner, and a lid 112 and 112'. A ring 113 connected via a rubber band 113a and a cover 112 and 112 'are in contact with the cover 111 and 112' so as to move up and down in the enclosure 111 along the opening and closing of the cover 112 and 112 '. ) And a carburizing body 114 for firing so as to rotate, and a magnetization body 115 installed at the bottom of the enclosure 111.

As described above, since the base 110 is installed at the bottom of the water and includes the upper surface of the enclosure 111, the underwater soil can be easily introduced into the enclosure 111. Therefore, the cover includes a pair of covers 112 and 112 ′ covering the opened upper surface side by side to prevent the inflow of the soil. At this time, the pair of covers 112 and 112 'open and close the upper surface while operating in a manner of opening and closing opposite to each other.

Subsequently, an opening groove 111a for opening the inside and the outside is formed at a side surface of the enclosure 111, and the bottom of the enclosure 111 forms a shape in which the center rises, and the foreign matter deposited on the bottom is the opening groove 111a. It can be easily discharged through the outside. As a result, before the supporter 120 is coupled with the base 110, various soils (foreign materials) deposited in the enclosure 111 of the base 110 are discharged and removed through the opening groove 111a, and thus the supporter 120 is removed. May be tightly coupled with the base 110.

Covers 112 and 112 ′ are hinged to the upper surface of the enclosure 111 in a hinged manner to open and close the upper surface, so that the soil is not introduced into the enclosure 111 when not coupled with the supporter 120. The upper surface is closed and closed, and when combined with the supporter 120, the upper surface is opened. On the other hand, the magnets 112a are reinforced with the covers 112 and 112 '. The magnet 112a reacts with the leg 122 of the supporter 120 inserted into the enclosure 111. As shown in FIG. 6 (a), when the leg 122 is inserted into the enclosure 111, the magnet ( When the pair of covers 112 and 112 'are attached to the legs 122 by the 112a, and the legs 122 are separated from the housing 111, the covers 112 and 112' are magnetically generated by the magnets 112a. As shown in FIG. 6 (b), the upper surface of the enclosure 111 is closed, while rotating in the direction covering the upper surface of the enclosure 111. For reference, the leg 122 should be made of a magnetizable material having iron to correspond to the magnet 112a.

Meanwhile, the lids 112 and 112 'have a function of guiding the movement of the leg 122 so that the leg 122 can be correctly inserted into the enclosure 111. As described above, since the base 110 is installed on the water floor and the supporter 120 is installed only when there is a shooting, the worker must proceed to install the supporter 120 on the base 110 in the water. do. However, since the combination of the enclosure 111 and the leg 122 cannot be accurately seen in the water phase, the task is not easy. However, since a pair of covers 112 and 112 ′ open to both sides as shown in FIG. 5 (c) performs a function of a guide plate, an operator relatively easily combines the enclosure 111 and the leg 122 even in the water phase. Can be done.

Ring 113 is connected to the cover (112, 112 ') via a rubber band (113a), so as to move up and down in the enclosure (111) along the rotation of the cover (112, 112'), the enclosure (111) Tension is generated in the rubber band 113a by the legs 122 inserted into the rubber bands 113a. More specifically, as shown in FIG. 6 (a), the leg 122 is moved by walking the leg 122 while being inserted into the enclosure 111, and the tension generated in the rubber band 113a by this movement. The covers 112 and 112 ′ are delivered to the covers 112 and 112 ′ so that the covers 112 and 112 ′ are in close contact with the legs 122. Of course, as mentioned above, once the lids 112, 112 ′ are in close contact with the legs 122, the magnets 12a configured on the lids 112, 112 ′ are formed between the lids 112, 112 ′ and the legs 122. 6. As shown in FIG. 6B, when the legs 122 are separated from the enclosure 111, the lids 112 and 112 ′ may smoothly close the opened upper surface of the enclosure 111. do. For reference, the rubber band 113a, which is a medium connecting the ring 113 and the cover 112 and 112 ', is made of an elastic material, so that the tension received from the ring 113 can be stably maintained without damaging the cover 112 or 112'. To be delivered.

 The carbide body 114 is installed on one surface of the enclosure 111 facing the covers 112 and 112 'to support the cover 112 and 112' to be elastically supported by using pressure applied by the covers 112 and 112 '. The cover 112 and 112 'are pushed up again to open the upper surface of the enclosure 111. In more detail, the operator sneaks the supporter 120 in the water to find the insertion position of the leg 122 to install the supporter 120 on the base 110. At this time, in the process of finding the insertion position of the leg 122 abuts the upper surface of the enclosure 111 closed by the cover (112, 112 '), the operator as shown in Figure 5 (b) leg 122 Pressure on the lids 112 and 112 '. When the leg 122 is lifted in such a state that the pressure is applied, the carcass 114 pushes the lids 112 and 112 'with a strong elastic force, and the lids 112 and 112' are the bullets of the carcass 114. The upper surface of the enclosure 111 is opened as shown in Fig. 5 (c) while rotating by the force. The operator inserts the leg 122 into the enclosure 111 as shown in Fig. 6 (a) with the lids 112 and 112 'opened as a guide.

The magnetization body 115 is configured at the bottom of the enclosure 111, and the base 110 and the supporter 120 are coupled to each other in correspondence with the magnetic body 123 configured in the leg 122. That is, the operator of the water phase may recognize that the supporter 120 is normally coupled to the base 110 by detecting the coupling between the magnetic body 115 and the magnetic body 123, and thus, the manipulation of the supporter 120 may be manipulated in the water phase. You can stop.

The supporter 120 is for stably fixing the lamp 130 to the resin R. The supporter 120 includes a plate 121 having a mounting groove 121a on which the lamp 130 is seated, and a top and bottom on the bottom of the plate 121. A pair of legs 122 protruding to be movable, a magnetic body 123 respectively formed on the legs 122, a plurality of guide rails 124 entered along the edge of the seating groove 121a, and legs It is composed of a vibrator 125 installed in the 122 to transmit a constant vibration to the base (110).

Plate 121 has a seating groove (121a) that can be wrapped and fixed stably while receiving the lamp 130, it is made of a high density material that can be submerged underwater.

Leg 122 is formed to protrude so as to be inserted into the enclosure 111 of the base 110, and is coupled to the plate 121 so as to be movable up and down, the bottom surface is concave to correspond to the bottom protruding in the enclosure 111 To achieve.

The magnetic body 123 is to be able to bind by applying a magnetic force to the magnetized body 115 configured in the base 110, generally a permanent magnet may be applied.

A plurality of guide rails 124 are installed along the edge of the mounting groove 121a so that the lamp 130 can be accurately guided to the mounting groove 121a. In general, the length of the guide rail 124 to correspond to the depth of the base 110 is located, when the supporter 120 is installed on the base 110, the top of the guide rail 124 is exposed to the water surface or at least the operator guides It should be able to determine the position of the rail 124. For reference, the guide rail 124 and the seating groove 121a may be preferably wrapped around the outer shape of the lamp 130.

The vibrator 125 is a vibrator 125a, a power supply 125b and a vibrator 125a and a power supply 125b, as shown in FIG. 10 (a diagram schematically showing the installation and operation of the vibrator according to the present invention). It consists of a terminal (a, b, c, d) for electrically connecting. In addition, the legs 122 are fixed to the plate 121 so as to be movable up and down, so that the terminals a, b, c, and d are normally held by the weight of the legs 122 as shown in FIG. When the legs 122 are inserted into the base 110, the terminals a, b, c, and d are in contact with each other while being pressed by the weight of the supporter 120.

The vibrator 125a is a well-known and common general vibrator installed in the leg 122, and a detailed description thereof will be omitted. As shown in FIG. 7, the vibrator 125a transmits vibration to the base 110 in the process of finding an insertion point of the leg 122 with respect to the base 110. Various earth and sand deposited in the enclosure 111 can be smoothly discharged to the outside through the opening groove 111a. In addition, even after the leg 122 is inserted into the enclosure 111, the vibrator 125a vibrates for a predetermined time, and the vibration is transmitted to the enclosure 111 as it is, so that the remaining soil is discharged through the opening groove 111a to the base. A close bond between the 110 and the supporter 120 may be achieved.

The power supply 125b supplies electricity for driving the vibrator 125a and is built in the plate 121 and stores a sufficient amount of electricity for the vibrator 125a to continuously vibrate for a predetermined time. Of course, since the power supply 125b should be recharged when it is discharged, it is preferable that a battery capable of charging the power supply 125b be applied.

The terminals a, b, c, and d are connected to the electric wires drawn from the vibrator 125a and the power supply 125b, respectively, and are installed at points where the legs 122 moved under pressure closely contact the plate 121. Thus, when the leg 122 is pressurized, the terminals a, b, c, and d come in contact with each other to allow the vibrator 125a and the power supply 125b to energize each other.

The lamp 130 is to irradiate light toward the aerial camera 20, the light will generally be a laser light.

8 is a perspective view showing the state of the lamp and the streamline according to the present invention, Figure 9 is a view schematically showing the operation of the switch configured in the lamp, it will be described with reference to this.

As mentioned above, the lamp 130 is aimed at irradiating the aerial camera 20 with light such as a laser beam, and is disposed in the water so that the lamp 130 is waterproof and manufactured to have a sufficient density for immersion in the water.

The lamp 130 for this purpose includes a main body 131 on which a battery or the like is mounted, a light emitter 132 for irradiating laser light, a shaft 133 disposed on the main body 131 with the light emitter 132 disposed on an upper end thereof, And a switch 134 for controlling ON and OFF of electricity supplied from the battery.

The main body 131 is waterproof to mount a battery. In the embodiment according to the present invention, the main body 131 is manufactured in a hexahedral shape, and correspondingly, the seating groove 121a forms a quadrangular groove shape, and the guide rail 124 is engaged with four corners of the main body 131. Four are installed.

The shaft 133 is installed on the upper surface of the main body 131, and guides the lead wire of the battery to be wired to the light emitter 132. Since the light emitter 132 disposed on the top of the shaft 133 should be exposed to the surface of the water, the length of the shaft 133 should be formed longer than the depth where the base 110 is located.

The light emitter 132 irradiates light having excellent straightness, such as laser light, and receives light from the battery to aim light upward.

The switch 134 allows the supply electricity of the battery to be selectively supplied to the light emitter 132, and has a structure as follows.

The switch 134 is formed to have a case 134a having a hollow S, a curved surface 134b formed at a bottom of the hollow S, and formed with a hole 134c at its lowest point, and spaced apart from the hole 134c. A pair of electrode bodies 134d and a spherical conductor sphere configured to be movable on the curved body 134b and conducting a pair of electrode bodies 134d when drawing into a hole 134c while forming a conductive material ( 134e, the conductor sphere 134e enters the hole 134c, and when the electrode body 134d is connected, the current supplied from the direct current battery is normally supplied to the light emitter 132, and the conductor sphere 134e is the hole. When it is separated from 134c, the connection state of the electrode body 134d is released and the current supply from the direct current battery to the light emitter 132 is cut off.

This is because the conductor sphere 134e detects this when the adjustment point indicator 100 loses its center due to the force and cuts off the power of the light emitter 132. The aerial camera 20 is important to photograph the light that the reference point indicator 30 or the adjustment point indicator 100 is irradiated to the upper right. Therefore, if the reference point indicator 30 or the adjustment point indicator 100 is not irradiating light upward by an external force, the aerial camera 20 captures this and captures it in the captured image. It may cause difficulties.

Therefore, in the case of the control point indicator 100, which may be affected by external force, the operation of the light emitter 132 may be prevented in order to prevent misshooting of the aerial camera 20 when there is a problem in the aiming position of the light due to the force. It is preferable to stop, and for this purpose the switch 134 according to the invention achieves the structure described above.

For reference, since the pair of electrode bodies 134d are connected to the wires respectively drawn from the battery and the light emitter 132, when the electrode bodies 134d are connected to each other, electricity of the battery is normally supplied to the light emitter 132. When the electrode bodies 134d are spaced apart from each other, electricity of the battery cannot be supplied to the light emitter 132, and thus the operation of the light emitter 132 will be stopped.

The streamline pipe 140 is a pipe shape fixed in a streamlined cross section while being rotatably fixed along the longitudinal direction of the shaft 133, and the control point indicator 100 installed in the resin R having a force such as steel. Try to minimize the effects of this potency. In more detail, the streamline tube 140 is rotatably fixed around the shaft 133 and forms a streamlined cross-sectional shape, so that a pointed portion in the direction of force is directed. Therefore, when a force occurs toward the adjustment point indicator 100, the wire tube 140 is rotated toward the corresponding direction to distribute the force, thereby minimizing the resistance received by the shaft 133 to the light emitting unit 132 Make sure your aim is not disturbed.

In the detailed description of the present invention described above with reference to the preferred embodiments of the present invention, those skilled in the art or those skilled in the art having ordinary skill in the art will be described in the claims to be described later And it will be understood that various modifications and changes of the present invention can be made without departing from the scope of the art.

10; The drawing device 11; Photographed image DB 12; Dohwa Image DB
13; Image editing module 14; Image drawing module 15; Coordinate Synthesis Module
16; Input / output module 20; Aerial camera 30; Reference point indicator
100; Control point indicator 110; Base 120; supporter
130; Lamp 140; Mammary gland

Claims (1)

Shooting including the reference points (SP1, SP2) and the adjustment point (RP) formed by the ground shooting of the aerial camera 20, respectively formed by the laser light irradiated by the reference point indicator 30 and the adjustment point indicator 100 Combining and editing a photographed image DB 11 for storing an image and a plurality of the photographed images, but the same control point in the resin R when the boundary of the photographed image for a neighboring area is a resin R A drawing image including reference points (SP1, SP2) by proceeding with drawing based on the captured image edited by the image editing module 13 and the image editing module 13 for synthesizing and connecting the corresponding captured image based on the RP). An image drawing module 14 for completing the drawing, a drawing image DB 12 for storing the drawing image, and a coordinate combining module 15 for synthesizing GPS coordinate information on the drawing image based on the reference points SP1 and SP2. And outputting the photographed image and the drawing image A drawing device 10 including an input / output module 16 for inputting an operation signal for editing a photographed image and synthesizing GPS coordinate information of the drawing image;
Reference point indicator 30 is installed on the ground to irradiate the laser light toward the aerial camera 20 mounted on the aircraft in operation, 30
A box 111 is formed in a box shape having an upper surface opening and an opening groove 111 a for opening the inside and the outside thereof, and an inner bottom is formed so that the center rises so that the enclosure 111 is installed at the bottom of the resin R. A pair of covers 112 and 112 ′ installed side by side in the opening and closing manner at 111 and having a magnet 112 a and fixed to the covers 112 and 112 ′ through a rubber band 113 a. A ring 113 moving up and down in the enclosure 111 along the openings of the covers 112 and 112 'and being caught by the legs 122 and one surface of the enclosure 111 facing the covers 112 and 112'. A pair of bases (110) having a carburetor (114) installed on the cover to support the cover (112, 112 ') to pivot and a magnetized body (115) installed on the inner bottom of the enclosure (111); The mounting groove 121a is formed on the upper surface, and the plate 121 is formed of a material having a density for immersion in the water, and the magnet 112a is formed of a magnetizable material and is coupled to the bottom of the plate 121 so as to be movable up and down. The bottom surface is concave to correspond to the raised floor of the inside of the 111, the pair of legs 122 inserted into the housing 111 and the magnetic body attached to the leg 122 to correspond to the magnetized body 115 123, a plurality of guide rails 124 installed along the edge of the seating groove 121a, and a vibrator 125 that transmits vibration to the base 110, and the vibrator 125 includes legs 122. And a leg 122 which is connected to the wires drawn from the vibrator 125a and the power source 125b and the wires drawn from the vibrator 125a and the power source 125b and moved under pressure. The plates 121 are installed at the points where the plates 121 abut each other, so that the legs 122 A supporter 120 made of terminals a, b, c, and d that allow the vibrator 125a and the power supply 125b to energize each other when the plate 121 is in contact with each other; The main body 131 is made of a material having a density for submerging underwater while being waterproof and mounted in a battery, and immersed along the guide rail 124 to be seated in the seating groove 121a, and the stem 133 installed in the main body 131. And a light emitter 132 which is irradiated with a laser beam toward the aerial camera 20 mounted on the aircraft in operation, and which controls the energization between the battery and the light emitter 132 installed at the upper end of the shaft 133. Wherein, the switch 134 is a case (134a) having a hollow (S), and a curved surface 134b formed at the bottom of the case 134a and forming a curved surface formed with a hole 134c at the lowest point, the battery and the light emitter A pair of electrode bodies 134d connected to the wires drawn from the 132 and spaced apart from the holes 134c, and a pair of electrode bodies movably seated in the curved bodies 134b and drawn into the holes 134c. A lamp 130 made of a spherical conductor sphere 134e for energizing 134d; Control point indicator (100) comprising a streamlined cross-sectional shape and the wire tube 140 is rotatably fixed along the longitudinal direction of the shaft (133);
Editing image processing system capable of partial modification of the drawing image, characterized in that consisting of.

Images